Activity Based Costing

Ir. M. Geense

(Delft University of Technology)

Summary

Activity Based Costing ("ABC") is an approach to solve the problems of traditional cost management systems which are often unable to determine accurately the actual costs
of production and of the costs of related services. Instead of using broad arbitrary percentages to allocate costs, ABC seeks to identify cause and effect relationships
to objectively assign costs. Once costs of the activities have been identified, the cost of each activity is attributed to each product to the extent that the product uses the activity.
In this way ABC often identifies areas of high overhead costs per unit and so directs attention to finding ways to reduce the
costs or to charge more for costly products.

Activity Accounting with Kohler and Staubus

In the 1930s, the Comptroller of the Tennessee Valley Authority, Eric Kohler developped the concept of Activity Accounting.
The Tennessee Valley Authority was engaged in flood control,
navigation, hydro-electric power generation, etc. Kohler could not use a traditional managerial accounting system for these
kind of operations. Instead Kohler defined activities and introduced activity accountants. An activity is (a portion of) a work carried out by a (part of)
a company. For each activity Kohler created an activity account (Aiyathurai,
Cooper and Sinha, 1991, PP 61-64). An activity account is an income or expense account containing transactions over which
an activity supervisor exercises responsibility and control (Kohler, 1952, pp, 18-19). Thus instead of determining
the costs of a product, Kohler determined the costs of an activity.
In 1971 Staubus described another activity accounting system. Staubus also created an account for every activity. On the
left side of this account Staubus recorded the costs of the inputs of the activity. These inputs are the outputs from
previous activities within the company and / or outputs from another entity (for instance an outside supplier). On the right
hand side of the account Staubus recorded the value of the output of the activity. The outputs to another activity are
measured at standard costs. If however the output is sold to a customer, the output is measured at the
net realizable value (selling price minus selling costs). Staubus activity accounting culminates in a comparison of
outputs, at standard cost or net realizable value, and inputs (Staubus, 1971).

Activity Cost Analysis at General Electric

With an Activity Cost Analysis General Electric performed during the sixties, General Electric wanted to get better control of indirect costs
by controlling the activities that cause the indirect costs (Johnson, 1992, pp 131-141).

In 1963 General Electric formed a team which had to study indirect costs. This team focused mainly on indirect activities
in GE such as data processing, inspection, quality control etc. and determined the costs of these activities. Then they
identified the causes of these activities ("key controlling parameters"). For instance a new drawing,
made by the engineering department is a key controlling parameter and triggers activities such as data processing,
inspection, quality control, etc. The team also collected information about the quantity or count of each key controlling
parameter, such as the number of new drawings per period. Then the team estimated the total costs per unit key performance
parameter, for instance the costs per 1 new drawing made by the engineering department:

Activity Based Costing in the 1980s and 1990s

The activity based costing systems, described by Robin Cooper and Robert Kaplan in the 1980's and 1990's, has attracted
much attention. These systems identifies the major activities of a facility's production process and then classifies these
activities into one of the following categories:

unit-level activities;

batch-level activities;

product-sustaining level activities and;

facility-sustaining level activities.

The unit-level activities are performed each time a unit of a product is produced. The number of times unit-level
activities (such as drilling holes and inspecting every part) are performed varies according to the number of units
produced. The batch-level activities are performed each time a batch of goods is produced. The number of times
batch-level activities (such as setting up a machine) are performed varies according
to the number of batches made. The costs of these activities can be assigned to individual batches but they are fixed
regardless of the number of units in the batch. Product-sustaining activities are performed as needed to support
the production of each different type of product. Examples of product-sustaining activities are maintaining product
specifications, performing engineering change notices and developing special testing routines. These costs can be
assigned to individual products but are not proportional to the number of units or batches produced. Facility-sustaining
activities support a facility's general manufacturing process. Examples of facility-sustaining activities are lighting
and cleaning the facility, facility security and managing the facility.
The costs of the unit-level, batch-level and product-sustaining level activities are attributed to products
based on each product's consumption of those activities. The costs of facility-sustaining activities are allocated
to products arbitrarly or treated as period costs.
In the example below, described by Robin Cooper (1994, pp. B1-20-B1-21);

the number of direct labor hours a product consumes is the cost driver for unit-level activities;

the number of setups a product consumes is the cost driver of batch-level activities;

and the number of parts a product consumes is the cost driver of product-sustaining level activities.

According to Robin Cooper activity based costing systems can be used to monitor how an organization's resources are
consumed and helps to manage consumption and spending in a company. With activity based costing systems managers can
attempt to perform its activities more efficiently, reprice poducts or alter the company's product mix (Cooper, 1994,
pp. B1-9).